抗焦虑药
神经科学
新颖性
止痛药
外侧下丘脑
导水管周围灰质
谷氨酸的
加巴能
焦虑
被盖腹侧区
心理学
医学
下丘脑
分散注意力
焦虑症
痛觉过敏
生物神经网络
感觉系统
伤害
生物
神经元
精神药理学
作者
Tao Jia,Yi-Ting Peng,Yi-Ling Sun,Cui Yin,Xizhi Gu,Liqun Yang,Song Zhang,Jun-Li Cao,Cheng Xiao,Chunyi Zhou
标识
DOI:10.1038/s41467-026-73205-x
摘要
While attention distraction alleviates pain and negative affect, the underlying neural circuits remain unclear. Here, we show that novelty exposure, a means to attract attention, significantly alleviates acute and chronic pain in mice. Using a Fos-driven viral strategy, we identified a lateral hypothalamus (LH) neuronal ensemble activated during novelty exploration. This novelty ensemble also responds to pain- and anxiety-like stimuli. Activation of this ensemble produces analgesic and anxiolytic effects, whereas its inhibition exacerbates pain and anxiety-like behavior in mouse pain models. The LH ensemble comprises both GABAergic and glutamatergic subpopulations, both contributing to pain and anxiety modulation. However, activating their specific projections to the lateral preoptic area, lateral habenula, ventral tegmental area, and lateral periaqueductal gray regulates pain and anxiety in distinct patterns. Together, we define an LH novelty-activated neuronal subpopulation mediating the analgesic and anxiolytic benefits of novelty exposure, revealing circuit-specific targets for relieving pain and anxiety. This study shows that novelty exposure alleviates pain and anxiety in mice by activating a specific ensemble of neurons in the lateral hypothalamus, revealing distinct neural circuits that mediate the therapeutic benefits of attention distraction.
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